Study on Polyvinyl Alcohol Hydrogel Materials for Improving the Performance of Artificial Articular Cartilage

Yuan, Hou Jiang; Wei, Zhou; Yu, Xia

doi:10.4028/www.scientific.net/amr.703.29

Cited by 5 publications

(3 citation statements)

References 4 publications

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“…Examples include its inclusion in ophthalmic solutions and tear replacement solutions without causing any discomfort to the eyes [ 98 ]. In recent years, PVOH hydrogels have found extensive use in cartilage replacement, tissue sealants for emphysema treatment, wound dressings with healing agents, and as a barrier against secondary infections [ 99 , 100 , 101 ]. The toxicity profile of PVOH was extensively evaluated after oral and intravenous injections of PVOH in animal models [ 102 , 103 ].…”

Section: Common Polymers In La Ddssmentioning

confidence: 99%

Polymer Delivery Systems for Long-Acting Antiretroviral Drugs

Nayan,

Panja,

Sultana

et al. 2024

Pharmaceutics

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The success of long-acting (LA) drug delivery systems (DDSs) is linked to their biocompatible polymers. These are used for extended therapeutic release. For treatment or prevention of human immune deficiency virus type one (HIV-1) infection, LA DDSs hold promise for improved regimen adherence and reduced toxicities. Current examples include Cabenuva, Apretude, and Sunlenca. Each is safe and effective. Alternative promising DDSs include implants, prodrugs, vaginal rings, and microarray patches. Each can further meet patients’ needs. We posit that the physicochemical properties of the formulation chemical design can optimize drug release profiles. We posit that the strategic design of LA DDS polymers will further improve controlled drug release to simplify dosing schedules and improve regimen adherence.

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Section: Common Polymers In La Ddssmentioning

confidence: 99%

Polymer Delivery Systems for Long-Acting Antiretroviral Drugs

Nayan,

Panja,

Sultana

et al. 2024

Pharmaceutics

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“…Herein, we demonstrated a novel strategy based on triply reversible interactions to achieve this goal. Poly(vinyl alcohol) (PVA) was selected for its excellent biocompatibility, low cost, and ability to form coordination bonds with cations 49–53 . Aluminum sulfate was adopted as a conductive additive for three reasons.…”

Section: Introductionmentioning

confidence: 99%

“…Poly(vinyl alcohol) (PVA) was selected for its excellent biocompatibility, low cost, and ability to form coordination bonds with cations. [49][50][51][52][53] Aluminum sulfate was adopted as a conductive additive for three reasons. The immobile Al 3+ cations could coordinate with PVA chains to form a highly charged network, which was proven to be very sensitive to tiny deformations of the framework.…”

Section: Introductionmentioning

confidence: 99%

A highly resilient and ultra‐sensitive hydrogel for wearable sensors

Luo

Huang

Liu

2021

J of Applied Polymer Sci

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Conductive hydrogels have drawn increasing attention, but their applications are severely hindered due to insufficient sensitivities at tiny strains and poor recovery ratio upon external loads. Herein, a poly(vinyl alcohol)/aluminum sulfate composite hydrogel (T‐PVA‐Al) was designed to address this issue by introducing aluminum sulfate into poly(vinyl alcohol) aqueous solution, followed with three freezing–thawing cycles. The triply dynamic knots (hydrogen bonds, crystalline regions, and coordination interactions) worked in tandem to achieve high resilience (94% recovery ratio after 100 cycles) and fatigue resistance. Remarkably, the introduction of the immobile Al3+ cation and free sulfate (SO42−) anion endowed the T‐PVA‐Al hydrogel with outstanding sensitivity (a gauge factor=13.9, at 0.2% strain). It could precisely and quickly monitor external stress as low as 0.5 kPa, superior to most conductive hydrogels. Notably, the hydrogel sensor possessed the capacity to precisely and reliably detect subtle variations, for example, gentle finger touching, making it an ideal candidate for human‐motion detections, artificial skins, and wearable devices.

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